Childhood leukemia--risk factors and the need for an interdisciplinary research agenda

The International Agency for Research on Cancer (IARC) has classified high as well as low-frequency fields as “possibly carcinogenic to humans” (Group 2B). For high frequency fields the recent assessment is based mainly on weak positive associations described in some epidemiological studies between glioma and acoustic neuroma and the use of mobile and other wireless phones. Also for lowfrequency fields the evidence is based on epidemiological findings revealing a statistic association between childhood leukemia (CL) and low-level magnetic fields. The basic findings are already 10 years old. They have since been supported by further epidemiological studies. However, the knowledge on the main/crucial question of causality has not improved. This fact and in addition the small, but statistically significant increased incidence of CL in the surrounding of German nuclear power plants have motivated the German Office for Radiation Protection (BfS) to work toward a better understanding of the main causes of CL. A long-term strategic research agenda has been developed which builds on an interdisciplinary, international network and aims at clarifying the aetiology of childhood acute lymphoblastic leukemia.     

Asian promise: the state and future of collaborations in neuroscience

As investment in science and technology continues to grow in Asia, countries such as China, Japan and Singapore are witnessing great improvements in their neuroscience research environments; this is reflected in the opening of new research institutions and in the influx of neuroscientists trained abroad. Collaborative projects between researchers in these countries and laboratories in the United States and Europe are not only helping to shape these institutions, they are also leading to a surge in high-quality publications in both basic and translational neuroscience, resulting in increasing international recognition. Nature Reviews Neuroscience asks four neuroscientists about their collaborative experiences and the impact that such collaborations are having on neuroscience research.     

Molecular evolution study in China: progress and future promise

China has a large land area with highly diverse topography, climate and vegetation, and animal resources and is ranked eighth in the world and first in the Northern Hemisphere on richness of biodiversity. Even though little work on molecular evolution had been reported a decade ago, studies on both the evolution of macromolecules and the molecular phylogeny have become active in China in recent years. This review highlights some of the interesting and important developments in molecular evolution study in China. Chinese scientists have made significant contribution on the methods inferring phylogeny and biogeography of animals and plants in East Asia using molecular data. Studies on population and conservation genetics of animals and plants, such as Golden monkey and Chinese sturgeon, provided useful information for conserving the endangered species. East and South Asia has been demonstrated to be one of the centres of domestication. Origin and evolution of genes and gene families have been explored, which shed new insight on the genetic mechanism of adaptation. In the genomic era, Chinese researchers also made a transition from single-gene to a genomic investigation approach. Considering the fact that amazing progress has been made in the past few years, and more and more talented young scientists are entering field, the future of molecular evolution study in China holds much promise.     

The future of interdisciplinary research and training: how to conquer the silo guardians

We have entered a new era in biomedical research in which large interdisciplinary teams are being established to answer important scientific questions. Scientists of multidisciplinary backgrounds within universities are combining forces and inter-institutional consortia that include alliances between academia and industry are springing up around the country to generate breakthrough advances. A number of driving forces are at work to establish these collaborative research approaches. By contrast, there also are barriers to be surmounted by institutions with silo mentalities for effective partnerships to be established. In order for this new era of research to reach maximal effectiveness, new approaches to education of the young and retraining of established administrators and scientists must take place. These issues were explored thoroughly at the 2006 annual meeting of the Association of Anatomy, Cell Biology and Neurobiology Chairpersons (AACBNC) that was held in Aruba from January 18 to 21. The theme of this historic meeting was the Future of Interdisciplinary Research and Training: Breaking Down the Barriers. In this introductory article, we discuss the formation of a trendsetting Institute of Biomedical Sciences and Technology, the concept of the AACBNC meeting, and the influence of the Institute on the content of the meeting. The proceedings of this meeting, including Nobel Laureate Papers and Nobel Round-Table Discussions on the future of interdisciplinary research and training, are contained in this special issue of Experimental Biology and Medicine, a journal dedicated to the publication of multidisciplinary and interdisciplinary research in the biomedical sciences.     

Hospital-acquired infection: present and future impact and need for positive action

Surveillance of infections at the Ottawa General Hospital between September 1, 1971 and August 31, 1972 showed that the overall infection rate was 13.5% of which 5.6% was community-acquired while 7.9% was of nosocomial origin. These figures are comparable to those for equivalent hospitals in the United States and lower than those reported from the Boston City Hospital, but they nevertheless indicate that over half the infected patients in the hospital were infected after admission. Urinary tract infections accounted for 44.8% of all nosocomial infections and clearly dominated the picture. The postoperative wound infection rate was 3.9% and accounted for only 18% of nosocomial infections. It is probable that these findings are representative of general hospitals throughout Canada and indicate conditions which will not long be tolerated. The knowledge and techniques exist for the prevention of all hospital cross-infection and much autogenous infection. Specific measures are suggested for working towards this goal. These are (1) the replacement of archaic hospitals and hospital facilities, (2) the establishment in every hospital of an efficient surveillance program, (3) the institution of good catheterization and catheter care techniques, and (4) the establishment by hospitals of a quality control program whereby a specific explanation is required for every infection occurring within the hospital.     

Proteomics in clinical trials and practice: present uses and future promise

The study of clinical proteomics is a promising new field that has the potential to have many applications, including the identification of biomarkers and monitoring of disease, especially in the field of oncology. Expression proteomics evaluates the cellular production of proteins encoded by a particular gene and exploits the differential expression and post-translational modifications of proteins between healthy and diseased states. These biomarkers may be applied towards early diagnosis, prognosis, and prediction of response to therapy. Functional proteomics seeks to decipher protein-protein interactions and biochemical pathways involved in disease biology and targeted by newer molecular therapeutics. Advanced spectrometry technologies and new protein array formats have improved these analyses and are now being applied prospectively in clinical trials. Further advancement of proteomics technology could usher in an era of personalized molecular medicine, where diseases are diagnosed at earlier stages and where therapies are more effective because they are tailored to the protein expression of a patient's malignancy.     

Voltage-gated sodium channel toxins: poisons,probes, and future promise

Neurotoxins have served as invaluable agents for identification, purification, and functional characterization of voltage-gated ion channels. Multiple classes of these toxins, which target voltage- gated Na+ channels via high-affinity binding to distinct but allosterically coupled sites, have been identified. The toxins are chemically diverse, including guanidinium heterocycles, a variety of structurally unrelated alkaloids, and multiple families of nonhomologous polypeptides having either related or distinct functions. This review describes the biochemistry and pharmacology of these agents, and summarizes the structure-function relationships underlying their interaction with molecular targets. In addition, we explore recent advances in the use of these toxins as molecular scaffolding agents, drugs, and insecticides.